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/*
Minetest
Copyright (C) 2022 sfan5 <sfan5@live.de>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <cstdio>
#include <cstring>
#include <cmath>
#include <cassert>
#include <unordered_set>
#include <unordered_map>
#include "c_packer.h"
#include "c_internal.h"
#include "log.h"
#include "debug.h"
#include "threading/mutex_auto_lock.h"
extern "C" {
#include <lauxlib.h>
}
//
// Helpers
//
// convert negative index to absolute position on Lua stack
static inline int absidx(lua_State *L, int idx)
{
assert(idx < 0);
return lua_gettop(L) + idx + 1;
}
// does the type put anything into PackedInstr::sdata?
static inline bool uses_sdata(int type)
{
switch (type) {
case LUA_TSTRING:
case LUA_TFUNCTION:
case LUA_TUSERDATA:
return true;
default:
return false;
}
}
// does the type put anything into PackedInstr::<union>?
static inline bool uses_union(int type)
{
switch (type) {
case LUA_TNIL:
case LUA_TSTRING:
case LUA_TFUNCTION:
return false;
default:
return true;
}
}
static inline bool can_set_into(int ktype, int vtype)
{
switch (ktype) {
case LUA_TNUMBER:
return !uses_union(vtype);
case LUA_TSTRING:
return !uses_sdata(vtype);
default:
return false;
}
}
// is the key suitable for use with set_into?
static inline bool suitable_key(lua_State *L, int idx)
{
if (lua_type(L, idx) == LUA_TSTRING) {
// strings may not have a NULL byte (-> lua_setfield)
size_t len;
const char *str = lua_tolstring(L, idx, &len);
return strlen(str) == len;
} else {
assert(lua_type(L, idx) == LUA_TNUMBER);
// numbers must fit into an s32 and be integers (-> lua_rawseti)
lua_Number n = lua_tonumber(L, idx);
return std::floor(n) == n && n >= S32_MIN && n <= S32_MAX;
}
}
namespace {
// checks if you left any values on the stack, for debugging
class StackChecker {
lua_State *L;
int top;
public:
StackChecker(lua_State *L) : L(L), top(lua_gettop(L)) {}
~StackChecker() {
assert(lua_gettop(L) >= top);
if (lua_gettop(L) > top) {
rawstream << "Lua stack not cleaned up: "
<< lua_gettop(L) << " != " << top
<< " (false-positive if exception thrown)" << std::endl;
}
}
};
// Since an std::vector may reallocate, this is the only safe way to keep
// a reference to a particular element.
template <typename T>
class VectorRef {
std::vector<T> *vec;
size_t idx;
VectorRef(std::vector<T> *vec, size_t idx) : vec(vec), idx(idx) {}
public:
constexpr VectorRef() : vec(nullptr), idx(0) {}
static VectorRef<T> front(std::vector<T> &vec) {
return VectorRef(&vec, 0);
}
static VectorRef<T> back(std::vector<T> &vec) {
return VectorRef(&vec, vec.size() - 1);
}
T &operator*() { return (*vec)[idx]; }
T *operator->() { return &(*vec)[idx]; }
operator bool() const { return vec != nullptr; }
};
struct Packer {
PackInFunc fin;
PackOutFunc fout;
};
typedef std::pair<std::string, Packer> PackerTuple;
}
static inline auto emplace(PackedValue &pv, s16 type)
{
pv.i.emplace_back();
auto ref = VectorRef<PackedInstr>::back(pv.i);
ref->type = type;
// Initialize fields that may be left untouched
if (type == LUA_TTABLE) {
ref->uidata1 = 0;
ref->uidata2 = 0;
} else if (type == LUA_TUSERDATA) {
ref->ptrdata = nullptr;
} else if (type == INSTR_POP) {
ref->sidata2 = 0;
}
return ref;
}
//
// Management of registered packers
//
static std::unordered_map<std::string, Packer> g_packers;
static std::mutex g_packers_lock;
void script_register_packer(lua_State *L, const char *regname,
PackInFunc fin, PackOutFunc fout)
{
// Store away callbacks
{
MutexAutoLock autolock(g_packers_lock);
auto it = g_packers.find(regname);
if (it == g_packers.end()) {
auto &ref = g_packers[regname];
ref.fin = fin;
ref.fout = fout;
} else {
FATAL_ERROR_IF(it->second.fin != fin || it->second.fout != fout,
"Packer registered twice with mismatching callbacks");
}
}
// Save metatable so we can identify instances later
lua_rawgeti(L, LUA_REGISTRYINDEX, CUSTOM_RIDX_METATABLE_MAP);
if (lua_isnil(L, -1)) {
lua_newtable(L);
lua_pushvalue(L, -1);
lua_rawseti(L, LUA_REGISTRYINDEX, CUSTOM_RIDX_METATABLE_MAP);
}
luaL_getmetatable(L, regname);
FATAL_ERROR_IF(lua_isnil(L, -1), "No metatable registered with that name");
// CUSTOM_RIDX_METATABLE_MAP contains { [metatable] = "regname", ... }
// check first
lua_pushstring(L, regname);
lua_rawget(L, -3);
if (!lua_isnil(L, -1)) {
FATAL_ERROR_IF(lua_topointer(L, -1) != lua_topointer(L, -2),
"Packer registered twice with inconsistent metatable");
}
lua_pop(L, 1);
// then set
lua_pushstring(L, regname);
lua_rawset(L, -3);
lua_pop(L, 1);
}
static bool find_packer(const char *regname, PackerTuple &out)
{
MutexAutoLock autolock(g_packers_lock);
auto it = g_packers.find(regname);
if (it == g_packers.end())
return false;
// copy data for thread safety
out.first = it->first;
out.second = it->second;
return true;
}
static bool find_packer(lua_State *L, int idx, PackerTuple &out)
{
#ifndef NDEBUG
StackChecker checker(L);
#endif
// retrieve metatable of the object
if (lua_getmetatable(L, idx) != 1)
return false;
// use our global table to map it to the registry name
lua_rawgeti(L, LUA_REGISTRYINDEX, CUSTOM_RIDX_METATABLE_MAP);
assert(lua_istable(L, -1));
lua_pushvalue(L, -2);
lua_rawget(L, -2);
if (lua_isnil(L, -1)) {
lua_pop(L, 3);
return false;
}
// load the associated data
bool found = find_packer(lua_tostring(L, -1), out);
FATAL_ERROR_IF(!found, "Inconsistent internal state");
lua_pop(L, 3);
return true;
}
//
// Packing implementation
//
static VectorRef<PackedInstr> record_object(lua_State *L, int idx, PackedValue &pv,
std::unordered_map<const void *, s32> &seen)
{
const void *ptr = lua_topointer(L, idx);
assert(ptr);
auto found = seen.find(ptr);
if (found == seen.end()) {
seen[ptr] = pv.i.size();
return VectorRef<PackedInstr>();
}
s32 ref = found->second;
assert(ref < (s32)pv.i.size());
// reuse the value from first time
auto r = emplace(pv, INSTR_PUSHREF);
r->ref = ref;
pv.i[ref].keep_ref = true;
return r;
}
static VectorRef<PackedInstr> pack_inner(lua_State *L, int idx, int vidx, PackedValue &pv,
std::unordered_map<const void *, s32> &seen)
{
#ifndef NDEBUG
StackChecker checker(L);
assert(idx > 0);
assert(vidx > 0);
#endif
switch (lua_type(L, idx)) {
case LUA_TNONE:
case LUA_TNIL:
return emplace(pv, LUA_TNIL);
case LUA_TBOOLEAN: {
auto r = emplace(pv, LUA_TBOOLEAN);
r->bdata = lua_toboolean(L, idx);
return r;
}
case LUA_TNUMBER: {
auto r = emplace(pv, LUA_TNUMBER);
r->ndata = lua_tonumber(L, idx);
return r;
}
case LUA_TSTRING: {
auto r = emplace(pv, LUA_TSTRING);
size_t len;
const char *str = lua_tolstring(L, idx, &len);
assert(str);
r->sdata.assign(str, len);
return r;
}
case LUA_TTABLE: {
auto r = record_object(L, idx, pv, seen);
if (r)
return r;
break; // execution continues
}
case LUA_TFUNCTION: {
auto r = record_object(L, idx, pv, seen);
if (r)
return r;
r = emplace(pv, LUA_TFUNCTION);
call_string_dump(L, idx);
size_t len;
const char *str = lua_tolstring(L, -1, &len);
assert(str);
r->sdata.assign(str, len);
lua_pop(L, 1);
return r;
}
case LUA_TUSERDATA: {
auto r = record_object(L, idx, pv, seen);
if (r)
return r;
PackerTuple ser;
if (!find_packer(L, idx, ser))
throw LuaError("Cannot serialize unsupported userdata");
pv.contains_userdata = true;
r = emplace(pv, LUA_TUSERDATA);
r->sdata = ser.first;
r->ptrdata = ser.second.fin(L, idx);
return r;
}
default: {
std::string err = "Cannot serialize type ";
err += lua_typename(L, lua_type(L, idx));
throw LuaError(err);
}
}
// LUA_TTABLE
lua_checkstack(L, 5);
auto rtable = emplace(pv, LUA_TTABLE);
const int vi_table = vidx++;
lua_pushnil(L);
while (lua_next(L, idx) != 0) {
// key at -2, value at -1
const int ktype = lua_type(L, -2), vtype = lua_type(L, -1);
if (ktype == LUA_TNUMBER)
rtable->uidata1++; // narr
else
rtable->uidata2++; // nrec
// check if we can use a shortcut
if (can_set_into(ktype, vtype) && suitable_key(L, -2)) {
// push only the value
auto rval = pack_inner(L, absidx(L, -1), vidx, pv, seen);
rval->pop = rval->type != LUA_TTABLE;
// and where to put it:
rval->set_into = vi_table;
if (ktype == LUA_TSTRING)
rval->sdata = lua_tostring(L, -2);
else
rval->sidata1 = lua_tointeger(L, -2);
// pop tables after the fact
if (!rval->pop) {
auto ri1 = emplace(pv, INSTR_POP);
ri1->sidata1 = vidx;
}
} else {
// push the key and value
pack_inner(L, absidx(L, -2), vidx, pv, seen);
vidx++;
pack_inner(L, absidx(L, -1), vidx, pv, seen);
vidx++;
// push an instruction to set them
auto ri1 = emplace(pv, INSTR_SETTABLE);
ri1->set_into = vi_table;
ri1->sidata1 = vidx - 2;
ri1->sidata2 = vidx - 1;
ri1->pop = true;
vidx -= 2;
}
lua_pop(L, 1);
}
assert(vidx == vi_table + 1);
return rtable;
}
PackedValue *script_pack(lua_State *L, int idx)
{
if (idx < 0)
idx = absidx(L, idx);
PackedValue pv;
std::unordered_map<const void *, s32> seen;
pack_inner(L, idx, 1, pv, seen);
return new PackedValue(std::move(pv));
}
//
// Unpacking implementation
//
void script_unpack(lua_State *L, PackedValue *pv)
{
lua_newtable(L); // table at index top to track ref indices -> objects
const int top = lua_gettop(L);
int ctr = 0;
for (size_t packed_idx = 0; packed_idx < pv->i.size(); packed_idx++) {
auto &i = pv->i[packed_idx];
// If leaving values on stack make sure there's space (every 5th iteration)
if (!i.pop && (ctr++) >= 5) {
lua_checkstack(L, 5);
ctr = 0;
}
switch (i.type) {
/* Instructions */
case INSTR_SETTABLE:
lua_pushvalue(L, top + i.sidata1); // key
lua_pushvalue(L, top + i.sidata2); // value
lua_rawset(L, top + i.set_into);
if (i.pop) {
if (i.sidata1 != i.sidata2) {
// removing moves indices so pop higher index first
lua_remove(L, top + std::max(i.sidata1, i.sidata2));
lua_remove(L, top + std::min(i.sidata1, i.sidata2));
} else {
lua_remove(L, top + i.sidata1);
}
}
continue;
case INSTR_POP:
lua_remove(L, top + i.sidata1);
if (i.sidata2 > 0)
lua_remove(L, top + i.sidata2);
continue;
case INSTR_PUSHREF:
lua_pushinteger(L, i.ref);
lua_rawget(L, top);
break;
/* Lua types */
case LUA_TNIL:
lua_pushnil(L);
break;
case LUA_TBOOLEAN:
lua_pushboolean(L, i.bdata);
break;
case LUA_TNUMBER:
lua_pushnumber(L, i.ndata);
break;
case LUA_TSTRING:
lua_pushlstring(L, i.sdata.data(), i.sdata.size());
break;
case LUA_TTABLE:
lua_createtable(L, i.uidata1, i.uidata2);
break;
case LUA_TFUNCTION:
luaL_loadbuffer(L, i.sdata.data(), i.sdata.size(), nullptr);
break;
case LUA_TUSERDATA: {
PackerTuple ser;
sanity_check(find_packer(i.sdata.c_str(), ser));
ser.second.fout(L, i.ptrdata);
i.ptrdata = nullptr; // ownership taken by callback
break;
}
default:
assert(0);
break;
}
if (i.keep_ref) {
lua_pushinteger(L, packed_idx);
lua_pushvalue(L, -2);
lua_rawset(L, top);
}
if (i.set_into) {
if (!i.pop)
lua_pushvalue(L, -1);
if (uses_sdata(i.type))
lua_rawseti(L, top + i.set_into, i.sidata1);
else
lua_setfield(L, top + i.set_into, i.sdata.c_str());
} else {
if (i.pop)
lua_pop(L, 1);
}
}
// as part of the unpacking process we take ownership of all userdata
pv->contains_userdata = false;
// leave exactly one value on the stack
lua_settop(L, top+1);
lua_remove(L, top);
}
//
// PackedValue
//
PackedValue::~PackedValue()
{
if (!contains_userdata)
return;
for (auto &i : this->i) {
if (i.type == LUA_TUSERDATA && i.ptrdata) {
PackerTuple ser;
if (find_packer(i.sdata.c_str(), ser)) {
// tell it to deallocate object
ser.second.fout(nullptr, i.ptrdata);
} else {
assert(false);
}
}
}
}
//
// script_dump_packed
//
#ifndef NDEBUG
void script_dump_packed(const PackedValue *val)
{
printf("instruction stream: [\n");
for (const auto &i : val->i) {
printf("\t(");
switch (i.type) {
case INSTR_SETTABLE:
printf("SETTABLE(%d, %d)", i.sidata1, i.sidata2);
break;
case INSTR_POP:
printf(i.sidata2 ? "POP(%d, %d)" : "POP(%d)", i.sidata1, i.sidata2);
break;
case INSTR_PUSHREF:
printf("PUSHREF(%d)", i.ref);
break;
case LUA_TNIL:
printf("nil");
break;
case LUA_TBOOLEAN:
printf(i.bdata ? "true" : "false");
break;
case LUA_TNUMBER:
printf("%f", i.ndata);
break;
case LUA_TSTRING:
printf("\"%s\"", i.sdata.c_str());
break;
case LUA_TTABLE:
printf("table(%d, %d)", i.uidata1, i.uidata2);
break;
case LUA_TFUNCTION:
printf("function(%d byte)", i.sdata.size());
break;
case LUA_TUSERDATA:
printf("userdata %s %p", i.sdata.c_str(), i.ptrdata);
break;
default:
printf("!!UNKNOWN!!");
break;
}
if (i.set_into) {
if (i.type >= 0 && uses_sdata(i.type))
printf(", k=%d, into=%d", i.sidata1, i.set_into);
else if (i.type >= 0)
printf(", k=\"%s\", into=%d", i.sdata.c_str(), i.set_into);
else
printf(", into=%d", i.set_into);
}
if (i.keep_ref)
printf(", keep_ref");
if (i.pop)
printf(", pop");
printf(")\n");
}
printf("]\n");
}
#endif
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